Figure 1 shows the front and back view of the N8105. Layout details are noted
by a red circled area and corresponding
number. The corresponding numbers are described below:

Shows the 20ma current source chip
on the top or front side of the board.

Indicates the +DC input voltage
connection point.

Indicates the –DC input voltage
(or DC ground) connection.

Marks the placement of the
top-side LED solder pad pairs. Note that each pad pair has one oval or
rounded pad and one rectangular pad. The rounded pad is the anode
or + LED connection point, the rectangular pad is the
cathode or – LED connection point. The top
side allows for up to 4 LEDs, which would be wired as a series
connected group (depending on available supply voltage).

This is a cathode grounding point (-DC) that can be bridged with a drop of
solder to complete the circuit. If only 1 LED is to be wired in the group,
then LED1’s cathode should be solder-bridged (to complete the circuit). If
there will be 2 LEDs in series, then solder the grounding bridge for the
cathode of LED2 (and donot solder LED1’s cathode bridge). If
3 are needed, then bridge the cathode of LED3. LED4’s cathode is grounded by
default. If less than 4 LEDs in the group are used, LED4’s cathode won’t be
connect anyway. You’ll notice that the cathode of LED A and the anode of LED
B are connected (also LED B to LED C, and LED C to LED D). This allows the
user just make wire hookups from the LEDs to the board without having to
connect wire to wires for series connections.

Figure 1

Shows the board part number. This
appears only on the back or rear side of the board.

Marks the placement of the bottom-side LED solder pad pairs. Again, each pad
pair has one oval or rounded pad and one rectangular pad. The rounded pad is
the anode or + LED connection point, the
rectangular pad is the cathode or – LED
connection point. The bottom side of the board provides connection
for up to 4 additional LEDs, which can be connected as one or more series
groups, individually (parallel) wired LEDs, or a combination of both.

Show the solder bridge points that
connect an individual LED's cathode to –DC (ground). These points are used
when an individual LED is wired with its own resistor (parallel
configuration) or, to end (ground) the last cathode in a series group. LED
4's cathode is grounded (connected to –DC) by default.

Very important: Never
solder both8and9
bridge points between any two LEDs - ever! The
will cause a short to your power source and will
damage the Distribution Board.

Notes the solder
bridge points to connect LED cathodes and anodes to create series groups.
Example: LED 1 cathode has a connection to a bridge point that, if soldered,
connects it to the anode of LED 2. There is another bridge point for the
cathode of LED 2 and the anode of LED 3, and another for the cathode of LED
3 and the anode of LED 4. If all three of bridge point 9's were soldered,
the bottom of the board would be configured for a series group containing 4
LEDs.

Shown the solder pads for installing
current limiting resistors for the 4 different LEDs on the bottom side of
the board. Only 1 resistor would be used for any series group of LEDs.

The flexibility of the bottom side of this board allows
for many different combinations of LED wiring schemes. This will give the
hobbyist many options when lighting a project. Examples can be found by clicking
here.